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Eukaryotic cells use COPII-coated carriers for endoplasmic reticulum (ER)-to-Golgi protein transport. Selective cargo capture into ER-derived carriers is largely driven by the SEC24 component of the COPII coat. The Arabidopsis genome encodes three AtSEC24 genes with overlapping expression profiles but it is yet to be established whether the AtSEC24 proteins have overlapping roles in plant growth and development. Taking advantage of Arabidopsis thaliana as a model plant system for studying gene function in vivo, through reciprocal crosses, pollen characterization, and complementation tests, evidence is provided for a role for AtSEC24A in the male gametophyte. It is established that an AtSEC24A loss-of-function mutation is tolerated in the female gametophyte but that it causes defects in pollen leading to failure of male transmission of the AtSEC24A mutation. These data provide a characterization of plant SEC24 family in planta showing incompletely overlapping functions of the AtSEC24 isoforms. The results also attribute a novel role to SEC24 proteins in a multicellular model system, specifically in male fertility.

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New Insights on Plant Cell Elongation: A Role for Acetylcholine

Sansebastiano

Fornaciari

Barozzi

et al. 2014

IJMS

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We investigated the effect of auxin and acetylcholine on the expression of the tomato expansin gene LeEXPA2, a specific expansin gene expressed in elongating tomato hypocotyl segments. Since auxin interferes with clathrin-mediated endocytosis, in order to regulate cellular and developmental responses we produced protoplasts from tomato elongating hypocotyls and followed the endocytotic marker, FM4-64, internalization in response to treatments. Tomato protoplasts were observed during auxin and acetylcholine treatments after transient expression of chimerical markers of volume-control related compartments such as vacuoles. Here we describe the contribution of auxin and acetylcholine to LeEXPA2 expression regulation and we support the hypothesis that a possible subcellular target of acetylcholine signal is the vesicular transport, shedding some light on the characterization of this small molecule as local mediator in the plant physiological response.

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An analytical study on an early twentieth-century Italian photographs collection by means of microscopic and spectroscopic techniques

Casoli

Fornaciari

2014

Microchemical Journal

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Assessment of antioxidant and antiproliferative properties of spinach plants grown under low oxygen availability

Fornaciari¹,

Milano

Mussi

et al. 2014

J Sci Food Agric

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Silvia Fornaciari

COPII-mediated traffic in plants

Evidence for the involvement of the Arabidopsis SEC24A in male transmission

New Insights on Plant Cell Elongation: A Role for Acetylcholine

An analytical study on an early twentieth-century Italian photographs collection by means of microscopic and spectroscopic techniques

Assessment of antioxidant and antiproliferative properties of spinach plants grown under low oxygen availability

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